五、新型說明: 【新型所屬之技術領域】 本創作係有關於-種電容器’尤指—種堆疊式固態電 解電容器。 " 【先前技術】 ,容器已廣泛地觀用於消費性家電用品、電腦主機 板及其周邊、電源供應态、通讯產品、及汽車等之美才元 件,其主要的作用包括:濾波、旁路、整流、轉合、^搞 、轉相等。是電子產品中不可缺少的元件之_。電容哭依 照不同的材質及用途’有不同的型態。包括紹質電解^ 、鈕質電解電容、積層陶瓷電容、薄膜電容等。 先行技術中,固態電解電容器具有小尺寸、大電容量 路2特性優越等優點,而可使用於中央處理器^電源電 ^从合作用上。-般而言,可利用多個電容單元的堆 成高電容量的固態電解電容器,習知堆疊式固態 中—電各盗包括多個電容單元與包覆電容單元的封膠,其 母一電容單元包括陽極部與陰極部。 =,固態電解電容器的尺寸也有朝微型化的設計,但 等隨著有提昇散熱、製程上的難易度、以及防潮性 易g錄續°亦即尺寸更微型化後,產生的熱源不易排除而 於内邹’相關製程上更不易生產而使成本增高,且 的辟^需具有4的尺寸,欲微型化下,即須減少封膠 "^予,而使得封膠的防潮性降低。 配合=本創作人感上述之缺失可改善,乃潛心研究並 缺失:本$用’終於提出—種設計合理且有效改善上述 3/1〇 【新型内容】 能堂作所要解決之技術問題’在於提供一插 態電解電容器,其目的在於:*以_疊式固 間的有致面積達成最大利用化。 善防^題、結構設計使得製程^生產及改 容器為==作提:-種堆㈣固態電解電 上述電容單元導線架及一封|單元。 具有一正極部及一負極 之 且母〜電容單元 電备早兀之正極部的正極引出 電性連接於 單元,以及包覆“ir導電架。封裝單元包覆雷容 其中,該些電容單元的伸露*封農單元。 效。面積區,有效面積區係佔封裝單 形成一有 65%至80%。該些電容單元的 ς X的面積的 ,陰極面積區係佔封裝單純度陰極面積區 。電容單元的_之寬度至60% 至95% 〇 封裝早疋的寬度的80% 本創作具有之效益··藉由電容 效面積區佔封裝單元面積的65至8〇〇/ :負極部的有 佔封褒單元面積的42至60%、。負=的有效面積 元寬度的_%間的結構區域度需佔封裝單 積,而達到最佳二早:與封裝單元間的有效面 ,提昇散朗效果,使熱源 4/10 M393775 能易於排除,且使製程上較易生產固態電解電容 =容單元與膠壁簡—定的轉,⑽善_性不佳的 【實施方式】 請先參閱第-圖所示,本創作係提供 電解電容器,其包含多個雷究ϋ, 裡隹且式固態 裝單元3。 3夕個“早疋1、—導線架2及-封 其中’凊參第二圖所示,每—個 正極部Ρ及-負極部Ν,並鸡係具有一 閥金細1 1、-包覆閥蝴片丄二1:系具有- ;厂包覆氧化物絕緣層1 2的一側端之導電= 13、艾包覆導電高分子層i 3之碳膠J電:子: 電谷早兀1的氧化物絕緣層12的部分外夺有 :圍繞疒圈之絕緣層1 5㈣每一個絕緣層; ^的方式成形在母—個相對應的氧化物_ 電反前後側邊),並形⑽每= 電谷早兀之正極部P與負極部N的絕緣線。巧母個 復參第-圖與第二圖所示,該 養在-起,此外,導線架2係具有:少糸相互堆 電容單元1之正極部p的正極引出導 接於該些 =連接於該些電容單—的丄= 導線以及包覆 負極引出導電架2 2的二末端户仙2 1的一末端與 ,每兩個電容單元1之間係“二=元3。此外 巧〒电增b1,例如:銀 5/10 =銀膏,以使得每-個電容單元i之負極抑電性 立在—起。換言之,該等電容單Si之該等碳膠 過該等導電層S 1而電性地疊堆在―起。 ,1 3係透 請參閱第三圖所示,亦可將電容單元工 行上下雙層的堆疊。 电朱z進 請再參閱第四A圖所示,在本創作中,該 i=p及負極部n共同形成-有效面積;(如圖= ’而此有效面積區A1係需佔封裝單 伽至嶋間;再如第四Β騎示,並謂些電m = 負α,ν共同形成一陰極面積區(如圖式中的斜線區域所示 2,此陰極面積區a2係佔封裝單元3長度乘 ==式中的網點區域所示)A的42%至6()%間;““ 裝i:;==5=N 寬抑 表T、合上述的說明,本創作堆疊式固態電解電容 由電料元的正與負極部的有效面積區佔封裂 的42二二^8()%、負極部的有效面積佔封裝單元面^ i 如此,可使®態€解1纟1 化的社M S4單A與封1單元間的有效面積,而達到最佳 你^設計,提昇散熱的效果,使熱源能易於排除且 辟二上2生產固態電解電容器,以及使電容單元與膠 土保持1的壁厚,以改善防潮性不佳的問題。、务 限本創:乍之較佳可行實施例,非因此即偽 庫巳圍,故舉凡運用本創作說明書及圖式内 6/1〇 M393775 容所為之等效結構變化,均同理皆包含於本創作之範圍内 ,合予陳明。 【圖式簡單說明】 第一圖為本創作堆疊式固態解電容器的侧視剖面示意圖。 第二圖為本創作堆疊式固態解電容器的電容單元之側視 剖面圖。 第三圖為本創作堆疊式固態解電容器的另一種堆疊方式 之側視剖面示意圖。 第四A圖為本創作堆疊式固態解電容器的有效面積區與 封裝單元之面積間的俯視剖面示意圖。 第四B圖為本創作堆疊式固態解電容器的陰極面積區與 封裝單元之面積間的俯視剖面示意圖。 第四C圖為本創作堆疊式固態解電容器的俯視剖面示意 【主要元件符號說明】 1 電容單元 P 正極部 11 閥金屬箔片 13 導電高分子層 N 負極部 12 氧化物絕緣層 14 碳膠 15 絕緣層 2 導線架 21 正極引出導電架 2 2 負極引出導電架 3 封裝單元 S 1 導電層 A 面積 7/10 M393775 A 1 有效面積區 A 2 陰極面積區 W ' W 1 寬度V. New description: [New technical field] This creation is about a type of capacitor, especially a stacked solid electrolytic capacitor. " [Previous technology], containers have been widely used in consumer appliances, computer motherboards and their peripherals, power supply, communication products, and automotive components, the main functions include: filtering, bypass , rectification, transfer, ^ engage, turn equal. It is an indispensable component in electronic products. Capacitors cry according to different materials and uses 'have different types. Including the electrolysis ^, button electrolytic capacitors, laminated ceramic capacitors, film capacitors and so on. In the advanced technology, the solid electrolytic capacitor has the advantages of small size, large capacity, and excellent characteristics, and can be used for cooperation of the central processing unit. In general, a plurality of capacitor units can be used to form a high-capacity solid-state electrolytic capacitor. Conventionally, a stacked solid-state power-to-electric thief includes a plurality of capacitor units and a capping capacitor unit, and a mother-capacitor The unit includes an anode portion and a cathode portion. =, the size of solid electrolytic capacitors also has a miniaturized design, but with the improvement of heat dissipation, process difficulty, and moisture resistance, even after the size is more miniaturized, the generated heat source is not easy to exclude. In the internal process, the production process is more difficult to produce and the cost is increased, and the demand has a size of 4, and in order to miniaturize, the sealant must be reduced, so that the moisture resistance of the sealant is lowered. Coordination = The creator feels that the above-mentioned lack can be improved, but it is painstakingly researched and missing: This $ is finally proposed - a reasonable design and effective improvement of the above 3/1 〇 [new content] can solve the technical problem of the church A plug-in electrolytic capacitor is provided, the purpose of which is to achieve maximum utilization by the area of the _-stacked solid. Good prevention and control, structure design makes the process ^ production and change the container as == to make: - seed pile (four) solid electrolytic electricity The above capacitor unit lead frame and a | unit. A positive electrode having a positive electrode portion and a negative electrode and a positive electrode portion of the mother-capacitor unit is electrically connected to the unit, and is covered with an "ir conductive frame. The package unit is covered with a lightning capacitor, wherein the capacitor units are The area of the area is valid. The area of the effective area is 65% to 80% of the package form. The area of the cathode area of the capacitor unit is the area of the cathode area of the package. _ width of the capacitor unit is 60% to 95% 80 80% of the width of the package is earlier than this. Benefits of the creation · · 65 to 8 〇〇 / area of the package unit area by the capacitance area There are 42 to 60% of the area of the sealed unit. The area of the structure of the area of the effective area element of the negative = _% needs to occupy the package, and the best two early: the effective surface between the package unit and the The divergent effect makes the heat source 4/10 M393775 easy to eliminate, and makes it easier to produce solid electrolytic capacitors in the process = the unit and the wall is simple and stable, (10) good _ poor performance [implementation] Please refer to As shown in the figure, this creation provides electrolytic capacitors. Contains a number of Lei ϋ ϋ 隹 式 式 固态 固态 固态 3 3 3 3 3 3 夕 “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ “ Department, and the chicken system has a valve gold thin 1 1 , - coated valve butterfly 丄 2 1: has -; factory coated oxide insulation layer 1 2 side of the conduction = 13, AI coated conductive The carbon layer of the polymer layer i 3 is J: electricity: the part of the oxide insulating layer 12 of the electric valley early 兀 1 has: an insulating layer 15 (four) surrounding each of the insulating layers; ^ is formed in the mother- Corresponding oxides _ electro-reverse side and front side), and shape (10) every = electric grid early enthalpy of the positive portion P and the negative portion N of the insulated wire. In the first and second figures, the lead frame 2 has: a positive electrode lead of the positive electrode portion p of the mutual stack capacitor unit 1 is connected to the = connection The two ends of the capacitors are 丄= wires and the ends of the two ends of the conductive strips 2 2, and each of the two capacitor units 1 is “two=yuan3. Increasing b1, for example: silver 5/10 = silver paste, so that the negative voltage suppression of each of the capacitor units i is established. In other words, the carbon bonds of the capacitors Si are passed through the conductive layers S 1 And electrically stacked in the "up." 1 3 series through the third figure, you can also stack the upper and lower layers of the capacitor unit. The electric Zhu zjin please refer to the fourth A picture, in In the present creation, the i=p and the negative portion n together form an effective area; (as shown in Fig. = 'This effective area area A1 needs to occupy the package single gamma to the day; and as the fourth Β ride shows, The electric m = negative α, ν together form a cathode area (as shown by the hatched area in the figure 2, the cathode area a2 is the length of the package unit 3 multiplied by == Shown) 42% to 6 ()% of A; "" Install i:; == 5=N Width T, combined with the above description, the creation of stacked solid electrolytic capacitors from the positive and negative of the electric element The effective area of the part accounts for 4222^8()% of the crack, and the effective area of the negative part accounts for the surface of the package unit. This allows the company to use the M S4 single A and the seal 1 The effective area between the units, to achieve the best you design, improve the heat dissipation effect, so that the heat source can be easily removed and the second generation of solid electrolytic capacitors, and the wall thickness of the capacitor unit and the clay to maintain 1 to improve moisture resistance The problem of poor sexuality. The limitation of the creation: the preferred and feasible embodiment of the , , 非 非 非 非 非 非 非 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故 故The same reason is included in the scope of this creation, and is combined with Chen Ming. [Simple diagram of the diagram] The first diagram is a side view of the stacked solid-state de-capacitor of the creation. The second diagram is the creation of stacked solid state Side view of the capacitor unit of the de-capacitor. The third figure is the creation of a stacked solid-state decompression capacitor. A side view of another stacking method. The fourth A is a top cross-sectional view of the area between the effective area of the stacked solid-state de-capacitor and the area of the package unit. The fourth B-picture is the creation of a stacked solid-state decapiter. Schematic cross-sectional view between the area of the cathode area and the area of the package unit. The fourth C-picture is a schematic cross-sectional view of the stacked solid-state de-capacitor. [Main component symbol description] 1 Capacitor unit P Positive part 11 Valve metal foil 13 High conductivity Molecular layer N Negative electrode 12 Oxide insulating layer 14 Carbon adhesive 15 Insulating layer 2 Lead frame 21 Positive lead-out conductive frame 2 2 Negative electrode lead-out conductive frame 3 Package unit S 1 Conductive layer A Area 7/10 M393775 A 1 Effective area A 2 Cathode area W ' W 1 width